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Bottom boundary layer in-situ observation system suitable for shallow water viscous seabed and arrangement method thereof

An observation system and boundary layer technology, applied in the field of marine survey, can solve the problems of bottom boundary layer observation interference, influence observation effect, clumsy operation, etc., so as to reduce the cost of installation and observation, avoid the influence of turbulence, and ensure the effect of piling depth.

Active Publication Date: 2020-05-08
OCEAN UNIV OF CHINA
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  • Application Information

AI Technical Summary

Problems solved by technology

When the leg-bearing system sits on the seabed, due to the large void ratio of the cohesive seabed sediment, the weight of the observation frame (about 600-1000 kg) and the repeated erosion of the legs by the water flow often lead to its overall settlement, which will affect the observation. The effect, if it is heavy, it will cause the observation frame to be partially buried and cannot be recovered
If the settling plate method is adopted, the size of the settling plate should be determined according to the self-weight of the observation system. If the settling plate’s inward expansion area is too large, it will squeeze the observation space and interfere with the observation of the bottom boundary layer; if it is too small, it will affect the anti-settlement effect (CN201621100512. 6 Observation frame near the bottom boundary layer)
[0004] For the pile bearing system, the observation frame can be placed on the bottom pile to avoid settlement. However, due to the high cost of the drilling rig and relatively clumsy operation, usually only one or two piles are driven for bearing, and the pile itself or the observation system are likely to cause disturbance. flow, the space available for instruments to be fixed is limited, which limits the number and integration methods of instruments
Drilling with high-pressure water guns is relatively cheap and flexible, but the existing technology only considers the scouring effect of high-pressure water flow: that is, by adding additional pressure and reducing the diameter of the water gun, the seabed is washed out of the pit to place the pile tube, Not only can the piling depth be limited (about 3m) because of the inability to break through the consolidation layer, but also the large scour pit will interfere with the observation space, and additional equipment such as GPS, depth sounder, and booster pump are required to ensure the depth and stability of the pile foundation. There are many deficiencies in performance, piling cost, flexibility and operability (CN201720662009.8 A simple deep-sea piling device)
[0005] Observation accuracy of bottom boundary layer, parameter diversification, seabed settlement, pile foundation stability, operation convenience and other technical and economic cost issues have long been obstacles to the observation of shallow water viscous seabed bottom boundary layer. Existing technical solutions cannot meet the economic, Requirements for convenient, stable, modular, multi-parameter in-situ observation of shallow-water viscous seabed bottom boundary layer

Method used

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  • Bottom boundary layer in-situ observation system suitable for shallow water viscous seabed and arrangement method thereof
  • Bottom boundary layer in-situ observation system suitable for shallow water viscous seabed and arrangement method thereof
  • Bottom boundary layer in-situ observation system suitable for shallow water viscous seabed and arrangement method thereof

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Embodiment 1

[0038]An in-situ observation system for the bottom boundary layer suitable for shallow water cohesive seabed, the system includes: an upper-layer assembled undisturbed observation unit 1, a lower-layer hydraulic pile foundation unit 2, and a connection unit 3 for connecting and fixing the two; and A positioning unit that helps the positioning of the hydraulic pile foundation unit 2 of the lower floor.

[0039] The upper assembled non-disturbance observation unit 1 is composed of stainless steel solid tubes 7 of different diameters and lengths, instrument buckles, and supporting screws and nuts. The upper instrument layout area can freely splice steel pipes and build fixed supports according to the number, size, orientation, and location of the instruments used, so as to achieve the purpose of multi-instrument, multi-parameter, and full-level observation. The trapezoidal design of the observation area in the lower part ensures that the turbulence of the diameter of the surround...

Embodiment 2

[0051] The in-situ observation system for water and sediment movement in the shallow-water viscous seabed bottom boundary layer (observation system provided in Example 1) has been deployed many times in coastal areas such as Bohai Bay, Laizhou Bay, and Jiaozhou Bay (see Example 1 for the deployment method). Long-term, continuous, and full-level observations of water and sediment processes have been obtained, and a large number of ideal observation data have been obtained under conditions including extreme weather, human activities, etc., and a number of research results have been obtained, which are based on actual observations and verified by observations Practical and universal invention. In the many observation cases that have been implemented, the deepest water depth in the observation area is 15 m, the shallowest point is 5 m, the shortest observation time is 3 days, the longest is 1 year, the maximum number of instruments used is 10 at a time, and the weight of the observ...

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Abstract

The invention provides a bottom boundary layer in-situ observation system suitable for a shallow water viscous seabed and an arrangement method thereof. A hydraulic pile foundation system which is easy to manufacture, low in cost and easy to operate is established, the piling depth can be guaranteed, the anti-sedimentation and stability functions of the seabed observation system are achieved, andpiling of the designated number and positions can be conducted according to needs when the observation system is arranged; a stainless steel pipe free assembly means is adopted, an instrument arrangement area and a turbulence-free observation area are built, integration of various instruments is achieved, turbulence influences of an instrument frame body on an observation space are avoided, and the instrument arrangement area can be adjusted and matched according to user requirements; the observation frame supporting legs and the top ends of the bottom piles are systematically fixed through the foot plates, limitation of the weight of an observation system is avoided, and the defects of a settlement plate are overcome. All the components are convenient to replace or maintain, the cost is low, the bottom boundary layer in-situ observation system can be widely applied, and the problems of full-layer, multi-parameter, continuous, stable, high-cost and the like of bottom boundary layer in-situ observation are effectively solved.

Description

technical field [0001] The invention provides a seabed observation system, which belongs to the technical field of ocean surveying. Background technique [0002] The bottom boundary layer refers to the water layer near the seafloor where the current structure is obviously affected by the seafloor boundary. It is formed by multiple interactions between the bottom non-uniform water flow and the bed bottom, and is characterized by large density and turbidity gradients, turbulent instability, and difficult determination of boundary thickness. In the boundary layer, the energy of the water flow is dissipated due to bottom friction and turbulent movement, and it is manifested in the form of bottom shear stress, causing erosion or resuspension of bed sediments, resulting in vertical stratification of suspended sediment concentration, which in turn This in turn affects the flow structure. The hydrodynamics of the bottom boundary layer and the movement of fine-grained sediments hav...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C13/00
CPCG01C13/00G01C13/002E02D27/525E02D7/26
Inventor 宋德海王楠鲍献文李广雪王传祥
Owner OCEAN UNIV OF CHINA
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